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FireMPC: A Pan-Canadian Wildfire Forecasting Benchmark
FireMPC is a pan-Canadian wildfire risk benchmark covering approximately one billion hectares across all fifteen Canadian terrestrial ecozones at 1 km daily resolution from 2000 to 2025, integrating 55 drivers across fuel, terrain, anthropogenic, and meteorological families.
This release provides four pre-built sample caches that share the same underlying data cube but differ in their training and test sample construction strategies, enabling controlled study of FWI-guided Hard Negative Mining (FWI-HNM) versus random negative sampling.
Repository Contents
MPCFire/
├── cache_A/ # Train: random sampling | Test: FWI-HNM
├── cache_Y/ # Train: random sampling | Test: random sampling
├── cache_G/ # Train: FWI-HNM | Test: FWI-HNM
├── cache_H/ # Train: FWI-HNM | Test: random sampling
└── Entire_Canada_Maps/ # Raw driver rasters, 13 modalities x 26 years (yearly tar archives)
Each cache directory contains exactly three files:
| File | Size | Description |
|---|---|---|
windows_<hash>.h5 |
~14 GB | Pre-extracted 10-day input windows + labels for every sample (positives and negatives). One HDF5 file per cache. |
samples_variant_<X>.json |
~4.4 MB | Sample index: train / val / test split assignments, sample identifiers, and metadata. |
norm_stats.npz |
~2 KB | Channel-wise mean and standard deviation used for input normalisation. Skips the fire-mask channel and the categorical land-cover channel. |
Variant Design
The four caches form a 2x2 ablation grid that decouples the negative-sampling strategy used during training from the strategy used during evaluation:
| Test = FWI-HNM | Test = Random | |
|---|---|---|
| Train = Random | cache_A |
cache_Y |
| Train = FWI-HNM | cache_G |
cache_H |
- FWI-HNM (FWI-guided Hard Negative Mining) scores every non-fire candidate with a calibrated six-component CFFDRS composite (FFMC, DMC, DC, ISI, BUI, FWI), partitions the pool at the median, and combines hard negatives (fire-weather-matched non-ignitions) with representative negatives (low-danger baseline) in equal proportions.
- Random sampling draws negatives uniformly from the non-fire candidate pool (firemask = 5).
Comparing rows isolates the effect of the training-pool construction; comparing
columns isolates the effect of the evaluation-pool construction. The diagonal
pair (cache_A, cache_G) corresponds to the standard production setup; the
off-diagonal pair (cache_Y, cache_H) is used to verify that any
FWI-HNM advantage reflects genuine boundary hardening rather than train-test
distributional alignment.
Raw Driver Maps (Entire_Canada_Maps/)
Entire_Canada_Maps/ provides the underlying raster stack used to build the
sample caches above. It covers the full Canadian landmass for 2000-2025 (26
years) and is organised into 13 modality subfolders that correspond to the
drivers listed in Table 1 of the paper. Each subfolder contains one tar
archive per year; each archive holds that year's daily (or annual / static)
GeoTIFFs.
All rasters are stored with integer scaling (scaledInt) to reduce volume.
Subfolder Index
| Folder | Channels | Source | Cadence | Notes |
|---|---|---|---|---|
DEMs/ |
DEM, Slope, Aspect (sin/cos), Hillshade, TPI, TWI (7 channels) | ASTER GDEM | Static | Elevation and derived terrain indices; broadcast across the daily axis |
ERA5/ |
temperature_2m, u/v_component_of_wind_10m, snow_cover, total_precipitation_sum, surface_latent_heat_flux_sum, dewpoint_temperature_2m, surface_pressure, volumetric_soil_water_layer_1-4, temperature_2m_max, skin_temperature_max, potential_evaporation_sum, total_evaporation_sum, skin_reservoir_content, surface_net_solar_radiation_sum (18 channels) | ERA5-Land Daily Aggregate (ECMWF/ERA5_LAND/DAILY_AGGR) |
Daily | Atmospheric reanalysis fields |
FWI/ |
FFMC, DMC, DC, ISI, BUI, FWI (6 channels) | CFFDRS (ERA5-driven) | Daily | Canadian Forest Fire Weather Index components |
MCD09CMG/ |
Coarse Resolution Brightness Temperature Bands 20 / 21 / 31 / 32 (4 channels) | MOD/MYD09CMG | Daily | Coarse-resolution composite brightness temperatures |
MCD09GA/ |
Bands 1, 2, 3, 7 (4 channels) | MOD/MYD09GA | Daily | QA-filtered, gap-filled surface reflectance |
MCD11A1/ |
LST_Day_1km, LST_Night_1km, Emis_31, Emis_32 (4 channels) | MOD/MYD11A1 | Daily | QA-filtered, gap-filled land surface temperature and emissivity |
MCD12Q1/ |
Land Cover Class | MCD12Q1 | Annual | Land cover / land use class; broadcast across the daily axis |
MCD14A1/ |
Active Fire (binary) | MOD/MYD14A1 | Daily | Supervision target only; not included as a model input channel |
MCD15A3H/ |
LAI, FPAR (2 channels) | MCD15A3H | Daily (from 4-day composite, interpolated) | Leaf area index / fraction of absorbed PAR |
NDVI_EVI/ |
NDVI, EVI (2 channels) | MODIS-derived | Daily | Vegetation activity indices |
OSMs/ |
Road / Powerline / Building / Water Density (4 channels) | OSM-derived | Static | Infrastructure accessibility; broadcast across the daily axis |
VPD/ |
Vapor Pressure Deficit | ERA5-derived | Daily | Atmospheric moisture demand |
Worldpop/ |
Population Density | WorldPop | Annual | Human population density; broadcast across the daily axis |
File Naming
Entire_Canada_Maps/<modality>/<modality>__<YYYY>.tar
After extraction, individual files are named YYYY_MM_DD.tif for daily
modalities or <modality>_YYYY.tif for static / annual modalities.
Download and Extraction
from huggingface_hub import hf_hub_download
import tarfile, pathlib
tar_path = hf_hub_download(
repo_id="AnonymousData4NeurIPS/MPCFire",
repo_type="dataset",
filename="Entire_Canada_Maps/ERA5/ERA5__2020.tar",
)
out = pathlib.Path("./ERA5_2020")
with tarfile.open(tar_path) as tf:
tf.extractall(out)
To pull an entire modality:
from huggingface_hub import snapshot_download
snapshot_download(
repo_id="AnonymousData4NeurIPS/MPCFire",
repo_type="dataset",
allow_patterns=["Entire_Canada_Maps/ERA5/*"],
)
Splits
A temporal hold-out is used throughout:
| Split | Years |
|---|---|
| Train | 2000 - 2019 |
| Validation | 2020 - 2022 |
| Test | 2023 - 2025 |
The three-year test window deliberately covers the record-setting 2023 fire season alongside the more typical 2024 and 2025 seasons. All splits maintain a fixed 1:2 positive-to-negative ratio.
Sample identifiers and split assignments are stored in
samples_variant_<X>.json inside each cache.
File Format
windows_<hash>.h5 is a single HDF5 file with pre-extracted 10-day driver
windows and binary labels. The hash in the filename identifies the windowing
configuration (10-day backward window, 1 km patches) and is shared across all
four caches because the underlying input cube is identical; only the
positive/negative selection differs per variant.
norm_stats.npz provides per-channel mean and standard deviation arrays. The
fire-label channel and the categorical land-cover channel are excluded from
z-score normalisation.
Reading the Data
Quick example using huggingface_hub:
from huggingface_hub import snapshot_download
local_dir = snapshot_download(
repo_id="AnonymousData4NeurIPS/MPCFire",
repo_type="dataset",
allow_patterns=["cache_G/*"], # download a single variant
)
Then load the HDF5 file and the sample index:
import h5py, json, numpy as np
cache = f"{local_dir}/cache_G"
with open(f"{cache}/samples_variant_G.json") as f:
samples = json.load(f)
norm = np.load(f"{cache}/norm_stats.npz")
h5 = h5py.File(next(p for p in __import__('os').listdir(cache) if p.endswith('.h5')), "r")
Citation
This dataset accompanies a paper currently under anonymous peer review. A citation entry will be added on acceptance.
License
Released under the MIT License. The dataset is built from publicly available products (MODIS, ERA5-Land, ASTER, WorldPop, OpenStreetMap); please consult the licenses of the upstream sources for redistribution of derivative products.
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